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How a Car's Suspension Works
10 Attachment(s)
Just thought I'd share my short video on the basics of automotive suspension systems. Using my Corolla as an example, I tore down each component and explained the difference between the two most popular types, double wishbone and MacPherson strut front suspension:
Skip toward the end to watch the under-car footage of the suspension in action, or you can view the short video clip here: Starting with my rusty Corolla, stripped down to its unibody, subframe and front suspension: Attachment 490710 This is the sub-frame, where it bolts underneath the uni-body. It ties both sides of the suspension together. Attachment 490711 The Corolla uses a MacPherson Strut front suspension: Attachment 490712 It consists of a coil over strut mounted to the body that rotates with the steering knuckle and the wheel. At the bottom is the lower ball joint and control arm, which attach to the sub frame: Here's my diagram showing the difference between MacPherson and Double wishbone: Attachment 490713 I disassembled the front suspension to get a closer look at the components. I dropped out the subframe with the struts and wheels: Attachment 490714 And was left with this: Attachment 490715 This is the lower control arm. It pivots on two bushings (the ride and handling bushing) where it attaches to the subframe: Attachment 490716 And this is the steering knuckle. It links the bearing, spindle, lower ball joint, strut and brakes together: Attachment 490717 Here's what a double wishbone suspension looks like on my Lexus GS350. The main advantage of the double wishbone is it maintains a flat tire contact patch with the road while turning or navigating a bump: Attachment 490718 However, the main disadvantage of the double wishbone is that its more complex and wears out much faster. That's because the lower ball joint is loaded, i.e. it takes the weight of the vehicle, where as in a MacPherson strut suspension, the lower ball joint is merely a follower. Take a look at my free body diagram to see how the forces from the wheel are translated to the body to support the weight of the vehicle: Attachment 490719 Enjoy! |
These posts you do are very interesting. Do you know all this stuff you film or are you learning it as you go. ?
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More pix to add to this:
https://cimg2.ibsrv.net/gimg/www.clu...1d402d01fd.jpgMulti-link rear suspension on my 02 ES300. https://cimg3.ibsrv.net/gimg/www.clu...4146e442f9.jpgMcpherson Strut Suspension out front. |
Originally Posted by ArmyofOne
(Post 10101179)
More pix to add to this:
Multi-link rear suspension on my 02 ES300. Mcpherson Strut Suspension out front. Though it's not a huge difference (and part of it may also be the higher-profile tires), the suspension on your vintage 4Gen ES rides noticeably smoother than on the current 6Gen. |
Hah you're running out of things to talk about in your 'How it works' thread series! Not much left on this rolla. It will be interesting to see what's left :D
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Originally Posted by mmarshall
(Post 10101210)
Looks more or less typical of most of today's non-sports sedans: The front gets vented/slotted rotors, and the rears don't.
Though it's not a huge difference (and part of it may also be the higher-profile tires), the suspension on your vintage 4Gen ES rides noticeably smoother than on the current 6Gen. |
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